413

I was playing around with Java 8 lambdas to easily filter collections. But I did not find a concise way to retrieve the result as a new list within the same statement. Here is my most concise approach so far:

List<Long> sourceLongList = Arrays.asList(1L, 10L, 50L, 80L, 100L, 120L, 133L, 333L);
List<Long> targetLongList = new ArrayList<>();
sourceLongList.stream().filter(l -> l > 100).forEach(targetLongList::add);

Examples on the net did not answer my question because they stop without generating a new result list. There must be a more concise way. I would have expected, that the Stream class has methods as toList(), toSet(), …

Is there a way that the variables targetLongList can be directly be assigned by the third line?

  • 7
    In case you don’t need the sourceLongList afterwards there’s Collection.removeIf(…) for convenience. – Holger May 8 '14 at 10:39
  • 1
    How about this? List<Long> targetLongList = sourceLongList.stream().collect(Collectors.toList()); – leeyuiwah Jul 25 '18 at 22:33

12 Answers 12

574

What you are doing may be the simplest way, provided your stream stays sequential—otherwise you will have to put a call to sequential() before forEach.

[later edit: the reason the call to sequential() is necessary is that the code as it stands (forEach(targetLongList::add)) would be racy if the stream was parallel. Even then, it will not achieve the effect intended, as forEach is explicitly nondeterministic—even in a sequential stream the order of element processing is not guaranteed. You would have to use forEachOrdered to ensure correct ordering. The intention of the Stream API designers is that you will use collector in this situation, as below.]

An alternative is

targetLongList = sourceLongList.stream()
    .filter(l -> l > 100)
    .collect(Collectors.toList());
  • 9
    Addition: I think this codes gets a little shorter, clearer and prettier if you use a static import of toList. This is done by placing the following among the imports of the file: static import java.util.stream.Collectors.toList;. Then the collect call reads just .collect(toList()). – Lii Jun 29 '16 at 8:54
  • 4
    In Eclipse it is possible to make the IDE add a static import for methods. This is done by adding the Collectors class in Preferences -> Java -> Editor -> Content Assist -> Favorites. After this, you only have to type toLi at hit Ctr+Space to have the IDE fill in toList and add the static import. – Lii Jun 29 '16 at 8:58
  • 3
    One thing to keep in mind is that IntStream and some other almost-but-not-quite-Streams do not have the collect(Collector) method and you will have to call IntStream.boxed() to convert them to a regular Stream first. Then again, maybe you just want toArray() . – Mutant Bob Sep 12 '17 at 19:09
  • why we have to use sequential() before forEach or use 'forEachOrdered` – amarnath harish Sep 18 '18 at 7:17
  • 1
    @amarnathharish Because forEach doesn't guarantee the order of operation execution for a parallel stream. The JavaDoc says "The behavior of this operation is explicitly nondeterministic. For parallel stream pipelines, this operation does not guarantee to respect the encounter order of the stream, as doing so would sacrifice the benefit of parallelism." (The first sentence of this quote actually means that order is not guaranteed for sequential streams either, although in practice it is preserved.) – Maurice Naftalin Sep 19 '18 at 8:10
169

Updated:

Another approach is to use Collectors.toList:

targetLongList = 
    sourceLongList.stream().
    filter(l -> l > 100).
    collect(Collectors.toList());

Previous Solution:

Another approach is to use Collectors.toCollection:

targetLongList = 
    sourceLongList.stream().
    filter(l -> l > 100).
    collect(Collectors.toCollection(ArrayList::new));
  • 58
    This is, however, useful if you want a particular List implementation. – orbfish Jun 14 '15 at 1:03
  • 1
    Despite beeing recommended to code against interfaces, there are clear cases (one of them being GWT) when you have to code against concrete implementations (unless you want all List implementations compiled and delivered as javascript). – Eduard Korenschi Dec 1 '15 at 14:09
  • 2
    Please . if you gonna copy C# then at least do it right. Why the verbocity ? – chrisl08 Oct 27 '16 at 13:20
  • 3
    Another pro for this method, from the Collectors::toList javadoc: "There are no guarantees on the type, mutability, serializability, or thread-safety of the List returned; if more control over the returned List is required, use toCollection(Supplier)." – Charles Wood Nov 7 '17 at 16:21
  • 1
    I suggest you edit your Answer to incorporate the points made in these comments. – Basil Bourque Aug 29 '18 at 18:40
12

I like to use a util method that returns a collector for ArrayList when that is what I want.

I think the solution using Collectors.toCollection(ArrayList::new) is a little too noisy for such a common operation.

Example:

ArrayList<Long> result = sourceLongList.stream()
    .filter(l -> l > 100)
    .collect(toArrayList());

public static <T> Collector<T, ?, ArrayList<T>> toArrayList() {
    return Collectors.toCollection(ArrayList::new);
}

With this answer I also want to demonstrate how simple it is to create and use custom collectors, which is very useful generally.

  • If you declare result as List<Long> you don't need to use this util method. Collectors.toList will do. Also, using specific classes instead of interfaces is a code smell. – Lluis Martinez Feb 17 '17 at 21:04
  • 1
    @LluisMartinez: "Collectors.toList will do.": No, not in many situations. Because it's not a good idea to use toList if you for example want to modify the list later in the program. The toList documentation says this: "There are no guarantees on the type, mutability, serializability, or thread-safety of the List returned; if more control over the returned List is required, use toCollection.". My answer demonstrates a way to make it more convenient to do that in a common case. – Lii Feb 18 '17 at 10:00
  • If you want to specifically create an ArrayList then it's ok. – Lluis Martinez Feb 20 '17 at 16:34
5

If you have an array of primitives, you can use the primitive collections available in Eclipse Collections.

LongList sourceLongList = LongLists.mutable.of(1L, 10L, 50L, 80L, 100L, 120L, 133L, 333L);
LongList targetLongList = sourceLongList.select(l -> l > 100);

If you can't change the sourceLongList from List:

List<Long> sourceLongList = Arrays.asList(1L, 10L, 50L, 80L, 100L, 120L, 133L, 333L);
List<Long> targetLongList = 
    ListAdapter.adapt(sourceLongList).select(l -> l > 100, new ArrayList<>());

If you want to use LongStream:

long[] sourceLongs = new long[]{1L, 10L, 50L, 80L, 100L, 120L, 133L, 333L};
LongList targetList = 
    LongStream.of(sourceLongs)
    .filter(l -> l > 100)
    .collect(LongArrayList::new, LongArrayList::add, LongArrayList::addAll);

Note: I am a contributor to Eclipse Collections.

4

A little more efficient way (avoid the creating the source List and the auto-unboxing by the filter):

List<Long> targetLongList = LongStream.of(1L, 10L, 50L, 80L, 100L, 120L, 133L, 333L)
    .filter(l -> l > 100)
    .boxed()
    .collect(Collectors.toList());
3
collect(Collectors.toList());

This is the call which you can use to convert any Stream to List.

1

If you don't mind using 3rd party libraries, AOL's cyclops-react lib (disclosure I am a contributor) has extensions for all JDK Collection types, including List. The ListX interface extends java.util.List and adds a large number of useful operators, including filter.

You can simply write-

ListX<Long> sourceLongList = ListX.of(1L, 10L, 50L, 80L, 100L, 120L, 133L, 333L);
ListX<Long> targetLongList = sourceLongList.filter(l -> l > 100);

ListX also can be created from an existing List (via ListX.fromIterable)

1

There is an another variant of collect method provided by LongStream class and similarly by IntStream and DoubleStream classes too .

<R> R collect(Supplier<R> supplier,
              ObjLongConsumer<R> accumulator,
              BiConsumer<R,R> combiner)

Performs a mutable reduction operation on the elements of this stream. A mutable reduction is one in which the reduced value is a mutable result container, such as an ArrayList, and elements are incorporated by updating the state of the result rather than by replacing the result. This produces a result equivalent to:

R result = supplier.get();
  for (long element : this stream)
       accumulator.accept(result, element);
  return result;

Like reduce(long, LongBinaryOperator), collect operations can be parallelized without requiring additional synchronization. This is a terminal operation.

And answer to your question with this collect method is as below :

    LongStream.of(1L, 2L, 3L, 3L).filter(i -> i > 2)
    .collect(ArrayList::new, (list, value) -> list.add(value)
    , (list1, list2) -> list1.addAll(list2));

Below is the method reference variant which is quite smart but some what tricky to understand :

     LongStream.of(1L, 2L, 3L, 3L).filter(i -> i > 2)
    .collect(ArrayList::new, List::add , List::addAll);

Below will be the HashSet variant :

     LongStream.of(1L, 2L, 3L, 3).filter(i -> i > 2)
     .collect(HashSet::new, HashSet::add, HashSet::addAll);

Similarly LinkedList variant is like this :

     LongStream.of(1L, 2L, 3L, 3L)
     .filter(i -> i > 2)
     .collect(LinkedList::new, LinkedList::add, LinkedList::addAll);
0

In case someone (like me) out there is looking for ways deal with Objects instead of primitive types then use mapToObj()

String ss = "An alternative way is to insert the following VM option before "
        + "the -vmargs option in the Eclipse shortcut properties(edit the "
        + "field Target inside the Shortcut tab):";

List<Character> ll = ss
                        .chars()
                        .mapToObj(c -> new Character((char) c))
                        .collect(Collectors.toList());

System.out.println("List type: " + ll.getClass());
System.out.println("Elem type: " + ll.get(0).getClass());
ll.stream().limit(50).forEach(System.out::print);

prints:

List type: class java.util.ArrayList
Elem type: class java.lang.Character
An alternative way is to insert the following VM o
0
String joined = 
                Stream.of(isRead?"read":"", isFlagged?"flagged":"", isActionRequired?"action":"", isHide?"hide":"")
                      .filter(s -> s != null && !s.isEmpty())
                      .collect(Collectors.joining(","));
0

Here is code by AbacusUtil

LongStream.of(1, 10, 50, 80, 100, 120, 133, 333).filter(e -> e > 100).toList();

Disclosure: I'm the developer of AbacusUtil.

  • I don't find any toList method present in LongStream class. Could you run this code ? – Vaneet Kataria Jan 25 at 12:13
  • @VaneetKataria try com.landawn.abacus.util.stream.LongStream or LongStreamEx in AbacusUtil – user_3380739 Jan 26 at 19:08
-2

If you don't use parallel() this will work

List<Long> sourceLongList = Arrays.asList(1L, 10L, 50L, 80L, 100L, 120L, 133L, 333L);

List<Long> targetLongList =  new ArrayList<Long>();

sourceLongList.stream().peek(i->targetLongList.add(i)).collect(Collectors.toList());
  • I don't like that the collect() is only used to drive the stream so that the peek() hook is called on each item. The result of the terminal operation is discarded. – Daniel K. Aug 12 '16 at 7:24
  • It is very weird to call collect and then not save the return value. In that case you could use forEach instead. But that is still a poor solution. – Lii Aug 23 '16 at 7:23
  • 1
    Using peek() in this way is an antipattern. – Grzegorz Piwowarek Jul 25 '17 at 17:28
  • As per Stream Java docs peek method must be used for debugging purposes only .It should not be used for any processing other than debugging . – Vaneet Kataria Jan 25 at 11:23

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